ENTAM - Test Report Sprayer type: Trade mark: Model: Trailed field crop sprayer Leeb GS 8000 / 36m Manufacturer: Horsch Maschinen GmbH Sitzenhof 1 92421 Schwandorf Germany June 2013
2 Assessment table No. Contents Assessment 1 Spray tank surface roughness +++ 2 Spray tank over volume + 3 Volume of total residual (here max. allowed 112 l) + 4 Spray tank contents gauge up to 20% Filling ++ 5 Spray tank contents gauge from 20% Filling ++ 6 Agitation system + 7 Width of nozzle bar section +++ 8 Boom height adjustment range +++ 9 Accuracy of pressure gauge ++ 10 Accuracy of flow meter see no.14 11 Regulation speed ++ 12 Even transverse distribution ++ 13 Rinsing water tank + 14 Deviation of volume/hectare adjustment device (spray computer) ++ from desired value 15 Repeatability of volume/hectare adjustment device (spray computer) +++ 16 Pressure drop between manometer and nozzle +++ 17 Deviation of single nozzle output from table ++ Fig.1+2: Assessment table and assessment keys of important test results. No. unit + ++ +++ No. unit + ++ +++ 1 µm >70-100 30-70 <30 10 % 4-5 2-4 0-<2 2 % 5-8 >8-12 >12 11 % >7-10 >3-7 0-3 of allow.value 3 >2/3-3/3 1/3-2/3 <1/3 12 CV >7-9 4-7 <4 4 % 7.5-5.0 <5.0-2.5 <2.5 13 times amount of dilutable 10-12 >12-14 >14 5 % 5.0-4.0 <4.0-2.0 <2.0 14 % >4-6 2-4 <2 6 % >10-15 5-10 <5 15 CV >2-3 1-2 <1 7 m 4.5-6 >3-4.5 3 or less 16 % >7-10 3-7 <3 8 m 1-1.5 >1.5-2.0 >2.0 17 % >7-10 3-7 <3 9 bar >0.10-0.20 >0.05-0.10 0.00-0.05 Free download of the test under: www.entam.net or www.jki.bund.de
3 Technical data of sprayer - 16.2 l washhand Tank. - 8000 l tank. - Electronical contents indicator. - Spray computer and MüllerCOMFORT Terminal. - 530 l rinsing water tank. - 36 m working width. - 12 hydraulic sections. - Infinitely variable from 350mm 2540mm. - Recirculation system for spay liquid. - 2 pumps. - Main pump: hydraulic driven centrifugal pump, type Hypro 9306C with 608 l/min at 3 bar and 450 l/min at 5 bar. - Auxiliary pump: hydraulic driven. Dimensions and weights : total length: height: width: unloaded weight: 8350 mm 3620 mm 2780 mm 5600 kg - Air suspended axle. - 2.25 m track width. - Axle pivot steering.
4 Description of sprayer The framework is made of steel profiles, with the tank situated on the top, rigid drawbar and a balltype towing device (max. towing load 4000 kg). The air-suspended axle has a track width of 2.25 m and axle pivot steering with a tracking function. The framework is designed for a maximum speed of 40 km/h. The pumps (main pump as a centrifugal pump plus cleaning pump as a Fig.4: Rear view with steering and suspended axle. three-chamber diaphragm pump) are driven hydraulically and require a tractor which can provide a hydraulic flow of at least 120 l/min. The spray boom is a framework construction made of steel profiles. It is folded/unfolded at the sides of the sprayer. The lateral boom segments can also be raised or lowered individually by up to 10 relative to horizontal. The height of the boom can be adjusted hydraulically and infinitely between 350 and 2540 mm. The pendulum device has a pendulum range of up to 11 relative to horizontal. The inspected equipment was also equipped with a slope compensation feature which can compensate gradients of up to 15 %. Four ultrasonic distance sensors can regulate the height at which the boom is carried if required; the boom is raised and lowered automatically when it is taken from the track / placed back on the track on reaching the headland. The operator can determine the distance between the nozzles and the target. The boom is divided mechanically into seven segments. The last segment comprises an obstacleavoidance device which can avoid obstacles to the front and the rear. The nozzles are protected from contact with the floor or Fig.6: Nozzle line with aluminium profiles for protection Fig.5: Boom made of steel profiles (black), aluminium profiles (silver) and Ultrasonic sensor. branches by the use of special aluminium profiles.
5 Description of sprayer The main tank is made of stainless steel and has a nominal volume of 8000 l. The spray level can be read using an electronic level indicator (Müller Tank Control) at the terminal in the driver's cab or at the main operating controls (scale gradations of 1 l) to the left side of the sprayer. There is also a filling connection to the left of the sprayer for filling the tank. This allows a filling capacity of up to 1000 l/ min. Apart from emptying by spraying, the tank can also be emptied using a drain valve to the right of the sprayer or using the pump and a pressure connection (KAM-LOCK) at the rear of the sprayer. The tank is cleaned by three rotating nozzles (plastic) which are positioned in the centre of the tank. The sprayer comprises a pressurised agitation system which consists of agitation rods equipped with injector nozzles (22 altogether). The jets from these injector nozzles are directed towards the bottom of the tank and each sprays the middle part of the tank, which is divided into two in the sump area. The agitator can be switched on and off from the driver's cab and its speed can be adjusted infinitely from zero to full power. The agitator is switched off automatically if the contents in the tank drop to under 250 l. There is a separate rinsing water tank at the back of the sprayer made of stainless steel with a capacity of 530 l for diluting or rinsing the main tank. This tank can also be filled by using a KAM-LOCK connection on the left of the sprayer. The sprayer is equipped with 2 pumps. A centrifugal pump is used for filling and emptying by spraying. The three-chamber diaphragm pump (for cleaning and diluting the remaining liquid) Fig.8: Cover plates to avoid damage at higher crop. Fig.7: Left sprayer side with control panel, induction bowle and filling connections (below the tank). draws the liquid directly from the rinsing tank and in addition from the centrifugal pump's pressure hose. This ensures that the spray pressure is kept at a constant level should the centrifugal pump stop running (e.g. if the level is on low) or in bridging situations when refilling after the tank has been emptied completely.
6 Description of sprayer The boom segments comprise individual nozzles which have been grouped together (pneumatic single nozzle control). A circulation valve on the tank opens when the nozzle valves are closed, ensuring circulation in the boom. The swivelling induction bowl made of stainless steel is equipped with a rotating nozzle for cleaning containers and six rinsing nozzles fixed to the side as well as two nozzles in the area of the vent. Fig.9: Induction bowle with control switches. The nozzles positioned on the sides of the tank wall are arranged so that the liquid is rotated during operation. The control unit including a job calculator and a terminal consists of a Müller "COMFORT-Terminal" for regulating spray application depending on the speed of the sprayer, with a tracking assistant and automatic spray section control (DGPS sensor). In addition to the terminal, it is also possible to operate the main spray functions using the multi-function joystick, which can be assembled near to the driver armrest in the tractor cabin. The central and individual spray sections, pressure adjustment, lifting Fig.10: Müller COMFORT-Terminal in the driver s cab. and lowering of the boom, lifting and lowering of the individual boom segments (variable geometry), slope compensation feature and manual axle pivot steering can be controlled by the multi-function joystick. Folding/unfolding of the boom (24 m also possible), nozzle selection, steering axle, agitator intensity and centrifugal pump can all be activated using the COMFORT-Terminal. All the necessary parameters are entered in the terminal using function keys/a rotary knob with press button. The liquid crystal graphic display is more generous than the average display and can still be read adequately in direct sunlight. During operation the display shows: application in l/ ha, driving speed, active spray sections, spray pressure, selected nozzles, manual or automatic mode, as well as 'pump on/off' and 'agitator on/off', for example. It can also show the liquid level in the tank if required.
7 Result table tested assembly result (measured) spray tank over volume 5.1 % * min. 5 % contents gauge graduation marks electronical display * max. 100 l deviation 5.0% * max. 7.5 % up to 1600 l filling 3.25% * max. 5 % between 1600 l and 8000 l surface roughness 0.011 mm * max 0.1 mm rinsing tank volume 530 l * 10 times delutable residual on flat ground rinsing and dilution possible? yes can rinsing equipment rinsing efficiency 0.0023 % * max. 0.01 % of can contents graduation manometer marks 0.1 bar * max. 0.2 bar deviation 0.1 bar * max. 0.2 bar agitation system deviation from even concentration 15 % *max. 15 % residual in l dilutable 100 l * max. 112 l non dilutable Non, recirculation system spray boom height adjustment range from - to 350 mm - 2540 mm nozzle ground contact protection yes pressure loss between manometer 2.88 % (with AIC 110 * max. 10 % and nozzle at 5 bar pressure 04 ) nozzle dripping after switch off 0 ml * max. 2 ml single nozzle flow rate transverse distribution type of nozzle: AIC 110-04 pressure (bar) flow rate (l/ min) max. deviation from table in % *(max. 10 %) max. deviation from mean in % *(max. 5 %) 3.0 1.55 7.6 4.4 5.0 1.99 6.9 4.3 type of nozzle: AIC 110-04 pressure distance (cm) coefficient of variation (%) *(max. 9 %) (bar) 3.0 50 5.4 5.0 50 5.6 6.0 50 5.4 Fig.11: Result table
8 Result table volume/hectare adjustment device repeatability of adjustment adjusted flow rate in l/ha deviation from desired value % CV (max. 3 % CV) deviation from desired value % CV (max. 3 % CV) procedure ascending application Descending applicati- rate on rate 200 0.57 0.51 250 0.47 0.25 300 0.42 0.42 regulation speed: deviation to adjusted value after 7 s switching on / off 3.2 % after 7 s switching of single sections 5.5 % after 7 s procedure reaching stady state after varing conditions (s) stady state change of driving speed by changing gears mean deviation 1.5 m/s to 2.0 m/s 3.3 s < 10 % 2.0 m/s to 2.5 m/s 3.2 s < 10 % 2.5 m/s to 2.0 m/s 3.9 s < 10 % 2.0 m/s to 1.5 m/s 3.5 s < 10 % Fig.12: Result table 2. Explanation on testing: Testing takes place according to the Technical Instructions for ENTAM-Tests of Field Crop Sprayers (Rel.4). This procedure was developed by the competent testing authorities of the European countries participating in ENTAM and is based on the CEN standard EN 12761 Agricultural and forestry machinery Plant protection equipment for the application of plant protection products and liquid fertilisers. This test is only a technical performance test which takes place without an accompanying field test. The test results apply only to the tested appurtenances of the sprayer. Statements on the behaviour of the sprayer with different appurtenances cannot be derived from these results.
9 Responsibility and recognition Performing competent authority: Julius Kühn-Institute (Germany) Institute for Application Techniques in Plant Protection Messeweg 11-12 D-38104 Braunschweig This test is recognized by the ENTAM members: BLT- Francisco Josephinum, Wieselburg - 070/13 Biomass, Logistics, Technology (Austria) CMA Generalitat de Catalunya EB 003/13 Centre de Mecanització Agrària (CMA) (Spain) ENAMA Ente Nazionale per la Meccanizzazione Agricola (Italy) ENTAM Rapporto di prova prestazionale 02/2013 HIAE Hungarian Institute of Agricultural Engineering (Hungary) D-69/2013 IRSTEA - National Research Institute of Sience and Technology for Enviroment and Agriculture (France) (formerly CEMAGREF) IRSTEA/CEMAGREF/ ENTAM/13/003 PIMR - Przemyslowy Instytut Maszyn Rolniczych Industrial Institute of Agricultural Engineering (Poland) PIMR-89/ENTAM/13